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SR05-D1A3-PV pyranometer

SR05-D1A3-PV pyranometer
4Pages

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Thermal Sensors Digital second class pyranometer – alternative for PV reference cell SR05 series is the most affordable range of pyranometers meeting ISO 9060 requirements. These sensors are ideal for general solar radiation measurements and popular for monitoring PV systems. Model SR05-D1A3–PV is made as a perfect alternative to PV reference cells. It offers the same Modbus interface as the most common PV reference cell model for easy compatibility. Relative to PV reference cells, SR05D1A3-PV has the advantage of higher stability, independence of the PV cell type or anti-reflection coating, and better availability and price of recalibration. Introduction SR05 series is an economical range of ISO 9060 second class pyranometers for measurement of solar radiation received by a plane surface, in W/m2, from a 180 ° field of view angle. SR05 is perfect for predicting generated power and monitoring the overall efficiency of PV power plants. Different mounting options are available, allowing SR05 to be mounted in virtually any situation. The combination of easy installation and its low cost makes SR05 the preferred solution for commercial scale PV systems. Model SR05-D1A3-PV has a digital output that is identical to the most commonly used photovoltaic reference cell with Modbus over RS-485 output. This allows for easy installation in existing PV monitoring systems, without the need to make major modifications to data logging software, instrument libraries and infrastructure. Figure 1 SR05-D1A3-PV pyranometer Compared to silicon reference cells, pyranometers offer several advantages such as a perfect (cosine) directional response and a flat spectral response over a wide range. Pyranometers therefore measure the maximum available resource and are suitable to act as a reference for all types (for example amorphous, crystalline or thin-film) of photovoltaic cells both with and without anti-reflection coating. See also our Application note “pyranometers versus PV reference cells”. Moreover, since the working principle of a pyranometer is different from a solar cell, the pyranometer offers a truly independent measurement of the irradiance. Compliant with IEC 61724-1, class C Figure 2 SR05’s, one in PoA, replacing PV reference cells IEC 61724-1: Photovoltaic System Performance Monitoring - Guidelines for Measurement, Data Exchange and Analysis – suggests to use pyranometers for PV monitoring; SR05 complies with IEC 61724-1 class C system requirements. Copyright by Hukseflux. Version 2103. We reserve the right to change specifications without prior notice Page 1/4. For Hukseflux Thermal Sensors go to www.hukseflux.com or e-mail us: info@huk

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Thermal Sensors higher stability than PV reference cells independent of PV cell type affordable calibration register structure and content identical to most common reference cells for easy exchangeability easy implementation and servicing easy mounting and levelling pricing: affordable second class pyranometers SR05-D1A3-PV design SR05 pyranometers employ a thermopile sensor with black coated surface, one dome and an anodised aluminium body with visible bubble level. Optionally the sensor can be delivered with a unique ball levelling mechanism and tube mount or dedicated mounting fixture,...

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Thermal Sensors Hukseflux Sensor Manager software For communication between a PC and SR05D1A3-PV(‘s), the Hukseflux Sensor Manager software can be used. It is available for download on our website. The software allows the user to quickly configure SR05-D1A3-PV Modbus address and serial communication settings (baud rate, parity and stopbits) and to plot and export data. Also, the digital outputs may be viewed for sensor diagnostics. Besides SR05-D1A3-PV, SR05 series offers several other versions with industry standard outputs, both digital and analogue. Each version offers multiple mounting...

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Thermal Sensors Table 1 Ordering codes for SR05 VERSIONS OF SR05 (part numbers), without cable SR05-D1A3-PV SR05-D1A3 SR05-D2A2 SR05-A1 digital second class pyranometer, with Modbus over RS-485 output, alternative for PV reference cell digital second class pyranometer, with Modbus over RS-485 and 0-1 V output digital second class pyranometer, with Modbus over TTL and 4-20 mA output analogue second class pyranometer, with millivolt output CABLE FOR SR05, with female M12-A connector at sensor end, non-stripped on other end ‘-03’ after SR05 part number standard cable length: 3 m ‘-10’ after...

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SR05-D1A3-PV pyranometer 4Pages

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SR05-D1A3-PV pyranometer
4Pages